test/unittests/interpreter/bytecode-array-iterator-unittest.cc - v8/v8 - Git at Google

 // Copyright 2015 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "src/v8.h"

 #include "src/interpreter/bytecode-array-builder.h"
 #include "src/interpreter/bytecode-array-iterator.h"
 #include "test/unittests/test-utils.h"

 namespace v8 {
 namespace internal {
 namespace interpreter {

 class BytecodeArrayIteratorTest : public TestWithIsolateAndZone {
  public:
   BytecodeArrayIteratorTest() {}
   ~BytecodeArrayIteratorTest() override {}
 };


 TEST_F(BytecodeArrayIteratorTest, IteratesBytecodeArray) {
   // Use a builder to create an array with containing multiple bytecodes
   // with 0, 1 and 2 operands.
   BytecodeArrayBuilder builder(isolate(), zone());
   builder.set_parameter_count(3);
   builder.set_locals_count(2);
   builder.set_context_count(0);

   Factory* factory = isolate()->factory();
   Handle<HeapObject> heap_num_0 = factory->NewHeapNumber(2.718);
   Handle<HeapObject> heap_num_1 = factory->NewHeapNumber(2147483647);
   Smi* zero = Smi::FromInt(0);
   Smi* smi_0 = Smi::FromInt(64);
   Smi* smi_1 = Smi::FromInt(-65536);
   Register reg_0(0);
   Register reg_1(1);
   Register reg_2 = Register::FromParameterIndex(2, builder.parameter_count());
   Handle<String> name = factory->NewStringFromStaticChars("abc");
   int name_index = 3;
   int feedback_slot = 97;

   builder.LoadLiteral(heap_num_0)
       .LoadLiteral(heap_num_1)
       .LoadLiteral(zero)
       .LoadLiteral(smi_0)
       .LoadLiteral(smi_1)
       .LoadAccumulatorWithRegister(reg_0)
       .LoadNamedProperty(reg_1, name, feedback_slot, LanguageMode::SLOPPY)
       .StoreAccumulatorInRegister(reg_2)
       .CallRuntime(Runtime::kLoadIC_Miss, reg_0, 1)
       .Return();

   // Test iterator sees the expected output from the builder.
   BytecodeArrayIterator iterator(builder.ToBytecodeArray());
   CHECK_EQ(iterator.current_bytecode(), Bytecode::kLdaConstant);
   CHECK(iterator.GetConstantForIndexOperand(0).is_identical_to(heap_num_0));
   CHECK(!iterator.done());
   iterator.Advance();

   CHECK_EQ(iterator.current_bytecode(), Bytecode::kLdaConstant);
   CHECK(iterator.GetConstantForIndexOperand(0).is_identical_to(heap_num_1));
   CHECK(!iterator.done());
   iterator.Advance();

   CHECK_EQ(iterator.current_bytecode(), Bytecode::kLdaZero);
   CHECK(!iterator.done());
   iterator.Advance();

   CHECK_EQ(iterator.current_bytecode(), Bytecode::kLdaSmi8);
   CHECK_EQ(Smi::FromInt(iterator.GetImmediateOperand(0)), smi_0);
   CHECK(!iterator.done());
   iterator.Advance();

   CHECK_EQ(iterator.current_bytecode(), Bytecode::kLdaConstant);
   CHECK_EQ(*iterator.GetConstantForIndexOperand(0), smi_1);
   CHECK(!iterator.done());
   iterator.Advance();

   CHECK_EQ(iterator.current_bytecode(), Bytecode::kLdar);
   CHECK_EQ(iterator.GetRegisterOperand(0).index(), reg_0.index());
   CHECK(!iterator.done());
   iterator.Advance();

   CHECK_EQ(iterator.current_bytecode(), Bytecode::kLoadICSloppy);
   CHECK_EQ(iterator.GetRegisterOperand(0).index(), reg_1.index());
   CHECK_EQ(iterator.GetIndexOperand(1), name_index);
   CHECK_EQ(iterator.GetIndexOperand(2), feedback_slot);
   CHECK(!iterator.done());
   iterator.Advance();

   CHECK_EQ(iterator.current_bytecode(), Bytecode::kStar);
   CHECK_EQ(iterator.GetRegisterOperand(0).index(), reg_2.index());
   CHECK(!iterator.done());
   iterator.Advance();

   CHECK_EQ(iterator.current_bytecode(), Bytecode::kCallRuntime);
   CHECK_EQ(static_cast<Runtime::FunctionId>(iterator.GetIndexOperand(0)),
            Runtime::kLoadIC_Miss);
   CHECK_EQ(iterator.GetRegisterOperand(1).index(), reg_0.index());
   CHECK_EQ(iterator.GetCountOperand(2), 1);
   CHECK(!iterator.done());
   iterator.Advance();

   CHECK_EQ(iterator.current_bytecode(), Bytecode::kReturn);
   CHECK(!iterator.done());
   iterator.Advance();
   CHECK(iterator.done());
 }

 }  // namespace interpreter
 }  // namespace internal
 }  // namespace v8
	// Copyright 2015 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "src/v8.h"

	#include "src/interpreter/bytecode-array-builder.h"
	#include "src/interpreter/bytecode-array-iterator.h"
	#include "test/unittests/test-utils.h"

	namespace v8 {
	namespace internal {
	namespace interpreter {

	class BytecodeArrayIteratorTest : public TestWithIsolateAndZone {
	public:
	BytecodeArrayIteratorTest() {}
	~BytecodeArrayIteratorTest() override {}
	};


	TEST_F(BytecodeArrayIteratorTest, IteratesBytecodeArray) {
	// Use a builder to create an array with containing multiple bytecodes
	// with 0, 1 and 2 operands.
	BytecodeArrayBuilder builder(isolate(), zone());
	builder.set_parameter_count(3);
	builder.set_locals_count(2);
	builder.set_context_count(0);

	Factory* factory = isolate()->factory();
	Handle<HeapObject> heap_num_0 = factory->NewHeapNumber(2.718);
	Handle<HeapObject> heap_num_1 = factory->NewHeapNumber(2147483647);
	Smi* zero = Smi::FromInt(0);
	Smi* smi_0 = Smi::FromInt(64);
	Smi* smi_1 = Smi::FromInt(-65536);
	Register reg_0(0);
	Register reg_1(1);
	Register reg_2 = Register::FromParameterIndex(2, builder.parameter_count());
	Handle<String> name = factory->NewStringFromStaticChars("abc");
	int name_index = 3;
	int feedback_slot = 97;

	builder.LoadLiteral(heap_num_0)
	.LoadLiteral(heap_num_1)
	.LoadLiteral(zero)
	.LoadLiteral(smi_0)
	.LoadLiteral(smi_1)
	.LoadAccumulatorWithRegister(reg_0)
	.LoadNamedProperty(reg_1, name, feedback_slot, LanguageMode::SLOPPY)
	.StoreAccumulatorInRegister(reg_2)
	.CallRuntime(Runtime::kLoadIC_Miss, reg_0, 1)
	.Return();

	// Test iterator sees the expected output from the builder.
	BytecodeArrayIterator iterator(builder.ToBytecodeArray());
	CHECK_EQ(iterator.current_bytecode(), Bytecode::kLdaConstant);
	CHECK(iterator.GetConstantForIndexOperand(0).is_identical_to(heap_num_0));
	CHECK(!iterator.done());
	iterator.Advance();

	CHECK_EQ(iterator.current_bytecode(), Bytecode::kLdaConstant);
	CHECK(iterator.GetConstantForIndexOperand(0).is_identical_to(heap_num_1));
	CHECK(!iterator.done());
	iterator.Advance();

	CHECK_EQ(iterator.current_bytecode(), Bytecode::kLdaZero);
	CHECK(!iterator.done());
	iterator.Advance();

	CHECK_EQ(iterator.current_bytecode(), Bytecode::kLdaSmi8);
	CHECK_EQ(Smi::FromInt(iterator.GetImmediateOperand(0)), smi_0);
	CHECK(!iterator.done());
	iterator.Advance();

	CHECK_EQ(iterator.current_bytecode(), Bytecode::kLdaConstant);
	CHECK_EQ(*iterator.GetConstantForIndexOperand(0), smi_1);
	CHECK(!iterator.done());
	iterator.Advance();

	CHECK_EQ(iterator.current_bytecode(), Bytecode::kLdar);
	CHECK_EQ(iterator.GetRegisterOperand(0).index(), reg_0.index());
	CHECK(!iterator.done());
	iterator.Advance();

	CHECK_EQ(iterator.current_bytecode(), Bytecode::kLoadICSloppy);
	CHECK_EQ(iterator.GetRegisterOperand(0).index(), reg_1.index());
	CHECK_EQ(iterator.GetIndexOperand(1), name_index);
	CHECK_EQ(iterator.GetIndexOperand(2), feedback_slot);
	CHECK(!iterator.done());
	iterator.Advance();

	CHECK_EQ(iterator.current_bytecode(), Bytecode::kStar);
	CHECK_EQ(iterator.GetRegisterOperand(0).index(), reg_2.index());
	CHECK(!iterator.done());
	iterator.Advance();

	CHECK_EQ(iterator.current_bytecode(), Bytecode::kCallRuntime);
	CHECK_EQ(static_cast<Runtime::FunctionId>(iterator.GetIndexOperand(0)),
	Runtime::kLoadIC_Miss);
	CHECK_EQ(iterator.GetRegisterOperand(1).index(), reg_0.index());
	CHECK_EQ(iterator.GetCountOperand(2), 1);
	CHECK(!iterator.done());
	iterator.Advance();

	CHECK_EQ(iterator.current_bytecode(), Bytecode::kReturn);
	CHECK(!iterator.done());
	iterator.Advance();
	CHECK(iterator.done());
	}

	} // namespace interpreter
	} // namespace internal
	} // namespace v8